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Title: Chapter%208%20Arrays%20and%20Strings


1
Chapter 8Arrays and Strings
2
Objectives
  • In this chapter, you will
  • Learn about arrays
  • Declare and manipulate data into arrays
  • Learn about array index out of bounds
  • Learn about the restrictions on array processing
  • Pass an array as a parameter to a function
  • Search and sort an array

3
Objectives (contd.)
  • In this chapter, you will (contd.)
  • Learn about C-strings
  • Use string functions to process C-strings
  • Input data intoand output data froma C-string
  • Learn about parallel arrays
  • Manipulate data in a two-dimensional array
  • Learn about multidimensional arrays

4
Introduction
  • Simple data type variables of these types can
    store only one value at a time
  • Structured data type a data type in which each
    data item is a collection of other data items

5
Arrays
  • Array a collection of a fixed number of
    components, all of the same data type
  • One-dimensional array components are arranged in
    a list form
  • Syntax for declaring a one-dimensional array
  • intExp any constant expression that evaluates to
    a positive integer

6
Accessing Array Components
  • General syntax
  • indexExp called the index
  • An expression with a nonnegative integer value
  • Value of the index is the position of the item in
    the array
  • array subscripting operator
  • Array index always starts at 0

7
Accessing Array Components (contd.)
8
Accessing Array Components (contd.)
9
Processing One-Dimensional Arrays
  • Basic operations on a one-dimensional array
  • Initializing
  • Inputting data
  • Outputting data stored in an array
  • Finding the largest and/or smallest element
  • Each operation requires ability to step through
    elements of the array
  • Easily accomplished by a loop

10
Processing One-Dimensional Arrays (contd.)
  • Given the declaration
  • int list100 //array of size 100
  • int i
  • Use a for loop to access array elements
  • for (i 0 i lt 100 i) //Line 1
  • cin gtgt listi //Line 2

11
Array Index Out of Bounds
  • Index of an array is in bounds if the index is
    gt0 and lt ARRAY_SIZE-1
  • Otherwise, the index is out of bounds
  • In C, there is no guard against indices that
    are out of bounds

12
Array Initialization During Declaration
  • Arrays can be initialized during declaration
  • Values are placed between curly braces
  • Size determined by the number of initial values
    in the braces
  • Example
  • double sales 12.25, 32.50, 16.90, 23, 45.68

13
Partial Initialization of Arrays During
Declaration
  • The statement
  • int list10 0
  • Declares an array of 10 components and
    initializes all of them to zero
  • The statement
  • int list10 8, 5, 12
  • Declares an array of 10 components and
    initializes list0 to 8, list1 to 5, list2
    to 12
  • All other components are initialized to 0

14
Some Restrictions on Array Processing
  • Aggregate operation any operation that
    manipulates the entire array as a single unit
  • Not allowed on arrays in C
  • Example
  • Solution

15
Arrays as Parameters to Functions
  • Arrays are passed by reference only
  • Do not use symbol when declaring an array as a
    formal parameter
  • Size of the array is usually omitted
  • If provided, it is ignored by the compiler
  • Example

16
Constant Arrays as Formal Parameters
  • Can prevent a function from changing the actual
    parameter when passed by reference
  • Use const in the declaration of the formal
    parameter
  • Example

17
Base Address of an Array and Array in Computer
Memory
  • Base address of an array address (memory
    location) of the first array component
  • Example
  • If list is a one-dimensional array, its base
    address is the address of list0
  • When an array is passed as a parameter, the base
    address of the actual array is passed to the
    formal parameter

18
Functions Cannot Return a Value of the Type Array
  • C does not allow functions to return a value of
    type array

19
Integral Data Type and Array Indices
  • C allows any integral type to be used as an
    array index
  • Improves code readability
  • Example

20
Other Ways to Declare Arrays
  • Examples

21
Searching an Array for a Specific Item
  • Sequential search (or linear search)
  • Searching a list for a given item, starting from
    the first array element
  • Compare each element in the array with value
    being searched for
  • Continue the search until item is found or no
    more data is left in the list

22
Selection Sort
  • Selection sort rearrange the list by selecting
    an element and moving it to its proper position
  • Steps
  • Find the smallest element in the unsorted portion
    of the list
  • Move it to the top of the unsorted portion by
    swapping with the element currently there
  • Start again with the rest of the list

23
Selection Sort (contd.)
24
C-Strings (Character Arrays)
  • Character array an array whose components are of
    type char
  • C-strings are null-terminated ('\0) character
    arrays
  • Example
  • 'A' is the character A
  • "A" is the C-string A
  • "A" represents two characters, 'A' and '\0

25
C-Strings (Character Arrays) (contd.)
  • Example
  • char name16
  • Since C-strings are null terminated and name has
    16 components, the largest string it can store
    has 15 characters
  • If you store a string whose length is less than
    the array size, the last components are unused

26
C-Strings (Character Arrays) (contd.)
  • Size of an array can be omitted if the array is
    initialized during declaration
  • Example
  • char name "John"
  • Declares an array of length 5 and stores the
    C-string "John" in it
  • Useful string manipulation functions
  • strcpy, strcmp, and strlen

27
String Comparison
  • C-strings are compared character by character
    using the collating sequence of the system
  • Use the function strcmp
  • If using the ASCII character set
  • "Air" lt "Boat"
  • "Air" lt "An"
  • "Bill" lt "Billy"
  • "Hello" lt "hello"

28
Reading and Writing Strings
  • Most rules for arrays also apply to C-strings
    (which are character arrays)
  • Aggregate operations, such as assignment and
    comparison, are not allowed on arrays
  • C does allow aggregate operations for the input
    and output of C-strings

29
String Input
  • Example
  • cin gtgt name
  • Stores the next input C-string into name
  • To read strings with blanks, use get function
  • cin.get(str, m1)
  • Stores the next m characters into str but the
    newline character is not stored in str
  • If input string has fewer than m characters,
    reading stops at the newline character

30
String Output
  • Example
  • cout ltlt name
  • Outputs the content of name on the screen
  • ltlt continues to write the contents of name until
    it finds the null character
  • If name does not contain the null character, then
    strange output may occur
  • ltlt continues to output data from memory adjacent
    to name until a '\0' is found

31
Specifying Input/Output Files at Execution Time
  • User can specify the name of an input and/or
    output file at execution time

32
string Type and Input/Output Files
  • Argument to the open function must be a
    null-terminated string (a C-string)
  • If using a string variable for the name of an I/O
    file, the value must first be converted to a
    C-string before calling open
  • Use the c_str function to convert
  • Syntax
  • strVar.c_str()
  • Where strVar is a variable of type string

33
Parallel Arrays
  • Two (or more) arrays are called parallel if their
    corresponding components hold related information
  • Example
  • int studentId50
  • char courseGrade50

34
Two- and Multidimensional Arrays
  • Two-dimensional array collection of a fixed
    number of components (of the same type) arranged
    in two dimensions
  • Sometimes called matrices or tables
  • Declaration syntax
  • intExp1 and intExp2 are expressions with positive
    integer values specifying the number of rows and
    columns in the array

35
Accessing Array Components
  • Accessing components in a two-dimensional array
  • Where indexExp1 and indexExp2 are expressions
    with positive integer values, and specify the row
    and column position
  • Example
  • sales53 25.75

36
Accessing Array Components (contd.)
37
Two-Dimensional Array Initialization During
Declaration
  • Two-dimensional arrays can be initialized when
    they are declared
  • Elements of each row are enclosed within braces
    and separated by commas
  • All rows are enclosed within braces
  • For number arrays, unspecified elements are set
    to 0

38
Two-Dimensional Arrays and Enumeration Types
  • Enumeration types can be used for array indices

39
Processing Two-Dimensional Arrays
  • Ways to process a two-dimensional array
  • Process entire array
  • Row processing process a single row at a time
  • Column processing process a single column at a
    time
  • Each row and each column of a two-dimensional
    array is a one-dimensional array
  • To process, use algorithms similar to processing
    one-dimensional arrays

40
Initialization
  • Examples
  • To initialize row number 4 (fifth row) to 0
  • To initialize the entire matrix to 0

41
Print
  • Use a nested loop to output the components of a
    two dimensional array

42
Input
  • Examples
  • To input into row number 4 (fifth row)
  • To input data into each component of matrix

43
Sum by Row
  • Example
  • To find the sum of row number 4

44
Sum by Column
  • Example
  • To find the sum of each individual column

45
Largest Element in Each Row and Each Column
  • Example
  • To find the largest element in each row

46
Passing Two-Dimensional Arrays as Parameters to
Functions
  • Two-dimensional arrays are passed by reference as
    parameters to a function
  • Base address is passed to formal parameter
  • Two-dimensional arrays are stored in row order
  • When declaring a two-dimensional array as a
    formal parameter, can omit size of first
    dimension, but not the second

47
Arrays of Strings
  • Strings in C can be manipulated using either
    the data type string or character arrays
    (C-strings)
  • On some compilers, the data type string may not
    be available in Standard C (i.e., non-ANSI/ISO
    Standard C)

48
Arrays of Strings and the string Type
  • To declare an array of 100 components of type
    string
  • string list100
  • Basic operations, such as assignment, comparison,
    and input/output, can be performed on values of
    the string type
  • The data in list can be processed just like any
    one-dimensional array

49
Arrays of Strings and C-Strings (Character Arrays)
50
Another Way to Declare a Two-Dimensional Array
  • Can use typedef to define a two-dimensional array
    data type
  • To declare an array of 20 rows and 10 columns

51
Multidimensional Arrays
  • n-dimensional array collection of a fixed number
    of elements arranged in n dimensions (n gt 1)
  • Declaration syntax
  • To access a component

52
Summary
  • Array structured data type with a fixed number
    of components of the same type
  • Components are accessed using their relative
    positions in the array
  • Elements of a one-dimensional array are arranged
    in the form of a list
  • An array index can be any expression that
    evaluates to a nonnegative integer
  • Must always be less than the size of the array

53
Summary (contd.)
  • The base address of an array is the address of
    the first array component
  • When passing an array as an actual parameter, use
    only its name
  • Passed by reference only
  • A function cannot return an array type value
  • In C, C-strings are null terminated and are
    stored in character arrays

54
Summary (contd.)
  • Commonly used C-string manipulation functions
    include
  • strcpy, strcmp, and strlen
  • Parallel arrays are used to hold related
    information
  • In a two-dimensional array, the elements are
    arranged in a table form

55
Summary (contd.)
  • To access an element of a two-dimensional array,
    you need a pair of indices
  • One for row position, one for column position
  • In row processing, a two-dimensional array is
    processed one row at a time
  • In column processing, a two-dimensional array is
    processed one column at a time
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